Specific Process Knowledge/Characterization/AFM: Atomic Force Microscopy/Workspaces: Difference between revisions
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'''*'''By choosing the work space/experiment ''QNM in air'' (Mechanical properties - QNM in air) ScanAsyst is included and so are the nanomechanical properties like modulus, adhesion, dissipation and deformation | '''*'''By choosing the work space/experiment ''QNM in air'' (Mechanical properties - QNM in air). ScanAsyst is included in this experiment and so are the nanomechanical properties like modulus, adhesion, dissipation and deformation | ||
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Revision as of 08:54, 20 March 2015
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What scanning mode, experiment/workspace and probe should I select
| Roughness measurements | Topographic measurements with no steep/abrupt steps | Steep/abrupt steps but no high aspect ratio | High aspect ratio measurements | |
|---|---|---|---|---|
| Recommended mode | Roughness measurement can be done in both Contact, Tapping and ScanAsyst mode. We recommend ScanAsyst mode because of less chance of (non-uniform) deformation of the sample and less tip wear - and because of ease of use. | For Topographic measurements with no steep/abrupt steps we also recommend ScanAsyst mode due to less chance of (non-uniform) deformation of the sample and less tip wear - and because of ease of use. | For Steep/abrupt steps but no high aspect ratio structures we still recommend ScanAsyst mode due to ease of use and lower top wear. | For High aspect ratio measurements we recommend Tapping mode. There is not yet a ScanAsyst probe developed for high aspect ratio. Therefore we recommend Tapping mode. |
| Recommended probes | ScanAsyst in air | ScanAsyst in air | ScanAsyst in air for ScanAsyst mode
TAP300Al-G for Tapping mode |
AR5T-NCHR |
| Recommended experiment/Workspace |
QNM in air* |
QNM in air* |
QNM in air* | TappingMode 300nm trench (for steps <~1µm)
Tappping mode in air - 6µm Deep Trench (for steps >1~µm) |
*By choosing the work space/experiment QNM in air (Mechanical properties - QNM in air). ScanAsyst is included in this experiment and so are the nanomechanical properties like modulus, adhesion, dissipation and deformation
More information about de different modes
Contact, Tapping and Peak Force Tapping
Please flowing this link to Brukers homepage: Introduction_to_Brukers_ScanAsyst_and_PeakForce_Tapping_Atomic_Force_Microscopy_Technology_AFM_AN133.pdf
PeakForce tapping and quantitative nanomechanical mapping
Please flowing this link to Brukers homepage: PeakForce tapping and Nanomechanical option
Peak Force KPFM (Kelvin Probe Force Microscopy)
Please flowing this link to Brukers homepage: pf-kpfm.html